论文信息 - DEVELOPMENT OF A DYNAMIC SIMULATION TOOL FOR THE EXOMARS ROVER

DEVELOPMENT OF A DYNAMIC SIMULATION TOOL FOR THE EXOMARS ROVER

Future planetary missions, including the 2011 European Space Agency (ESA) ExoMars mission, will require rovers to travel further, faster, and over more demanding terrain than has been encountered to date. To improve overall mobility, advances need to be made in autonomous navigation, power collection, and locomotion. In this paper we focus on the locomotion problem and discuss the development of a planetary rover chassis simulation tool that allows us to study key locomotion test cases such as slope climbing in loose soil. We have also constructed rover wheels and obtained experimental data to validate the wheel-soil interaction module. The main conclusion is that to fully validate such a complex simulation, experimental data from a full rover chassis is required. This is a first step in an on-going effort to validate the simulation with experimental data obtained from a full rover prototype.

Timothy D. Barfoot | Winnie Leung | Robert Bauer

[1] Guildford Surrey. ROVER MOBILITY PERFORMANCE EVALUATION TOOL (RMPET): A SYSTEMATIC TOOL FOR ROVER CHASSIS EVALUATION VIA APPLICATION OF BEKKER THEORY , 2004 .

[2] B. Hanamoto,et al. The analytical determination of drawbar pull as a function of slip for tracked vehicles in deformable soils , 1961 .

[3] Carsten Harnisch,et al. Off Road Vehicles in a Dynamic Three-Dimensional Realtime Simulation , 2002 .

[4] Christophe Grand,et al. A simulation system for behaviour evaluation of ofi-road mobile robots , 2001 .

[5] A. R. Jumikis. Introduction to Terrain-Vehicle Systems , 1970 .

[6] F. Ben Amar,et al. SIMULATION AND CONTROL OF HIGH MOBILITY ROVERS FOR ROUGH TERRAINS EXPLORATION , 2002 .

[7] H. Dines. ‘Soil’ Mechanics , 1944, Nature.

[8] Abhinandan Jain,et al. ROAMS : Rover Analysis, Modeling and Simulation , 1999 .

[9] Abhinandan Jain,et al. ROAMS: planetary surface rover simulation environment , 2003 .

[10] Jo Yung Wong,et al. Theory of ground vehicles , 1978 .

[11] Martin Sweeting,et al. ROVER MOBILITY PERFORMANCE EVALUATION TOOL ( RMPET ) : A SYSTEMATIC TOOL FOR ROVER CHASSIS EVALUATION VIA APPLICATION OF BEKKER THEORY , .

[12] Tim D. Barfoot,et al. Experimental and simulation results of wheel-soil interaction for planetary rovers , 2005, 2005 IEEE/RSJ International Conference on Intelligent Robots and Systems.